Method and apparatus for performing handover in a wireless communication system

ABSTRACT

An operating method of a serving Base Station (BS) in a communication system is provided). The method comprises transmitting a first message to a Mobile Station (MS), wherein the first message includes information related to a random access resource that is allocated to the MS by a target BS, and wherein the random access resource is distinguishable from other random access resources of the target BS.

PRIORITY

This application is a continuation application of a prior applicationSer. No. 13/169,264, filed on Jun. 27, 2011, which claimed priorityunder 35 U.S.C. §119(a) of a Korean patent application filed in theKorean Intellectual Property Office on Jun. 25, 2010 and assigned SerialNo. 10-2010-0060437, the entire contents of which are incorporatedherein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a method and apparatus for performing ahandover in a wireless communication system.

2. Description of the Related Art

In a wireless communication system, basic control channels are used forcommunication between a Base Station (BS) and a Mobile Station (MS). Thebasic control channels include a downlink preamble channel fordelivering information needed for system synchronization, a downlinkbroadcast channel for delivering system information, and an uplinkRanging CHannel (RCH) for providing information used for an MS to entera network.

Ranging is a process of periodically matching an accurate timing offsetand adjusting power between a BS and an MS. The MS performs rangingduring network entry, for example. The RCH carries information requiredfor ranging. Although RCHs are typically allocated periodically,additional RCHs may be allocated dynamically when a large number of MSsare expected to enter the network.

FIGS. 1A and 1B illustrate exemplary frame structures to which RCHs areallocated, in a case of handover in a wireless communication systemaccording to the related art.

FIG. 1A illustrates a frame structure for a BS A, and FIG. 1B illustratea frame structure for BS B. Reference numerals 101 and 121 denotedownlink frames for BS A and BS B, respectively. Reference numerals 103and 123 denote uplink frames for BS A and BS B, respectively.

Referring to FIGS. 1A and 1B, BS A allocates an RCH 113 to the uplinkframe 103 using a broadcast channel, SuperFrame Header (SFH) 105. WhenBS A determines to dynamically allocate additional RCHs, BS A mayallocate RCHs 117 and 119 to the uplink frame 103 using MAPs 109 and 111including dynamic resource allocation information.

The MAPs 109 and 111 that dynamically allocate the RCHs 117 and 119 areaccessible to all users and the RCHs 117 and 119 are also available toall users.

In a situation such as handover, BS A may allocate a specific RCH to aspecific MS. If an MS is to perform handover from BS B to BS A (i.e., atarget BS), BS B may allocate an RCH 115 for the MS to use within BS Aby unicasting a specific message, for example, a HandOver CoMmanD(HO-CMD) message 107 to the MS. The RCH 115 is determined throughnegotiation with BS A or under the control of a higher-layer controller.

Because the HO-CMD message 107 is unicast, all other MSs within BS Acannot receive information about the RCH 115 allocated to the handoverMS.

In the illustrated case of FIG. 1, there are four RCHs 113, 115, 117,and 119. In general, the RCHs 113, 115, 117, and 119 are sequentiallyindexed from 0 to 3 in a frequency order or in a time order. The RCHindexing is performed individually by each of the BS and MSs accordingto their allocation information, not signaled between them.

Without knowledge of allocation information about the RCH 115 allocatedby unicasting the HO-CMD message 107 to the handover MS, other MSswithin BS A index the RCHs 113, 117, and 119 sequentially with 0, 1, and2. On the other hand, BS A indexes the RCHs 113, 115, 117, and 119sequentially with 0 to 3. As BS A and the MSs within BS A label the RCHswith different indexes, there may be an RCH identification mismatchbetween BS A and the MSs.

SUMMARY OF THE INVENTION

Aspects of the present invention are to address at least theabove-mentioned problems and/or disadvantages and to provide at leastthe advantages described below. Accordingly, an aspect of the presentinvention is to provide a method and apparatus for performing a handoverin a wireless communication system.

Another aspect of the present invention is to provide a method andapparatus for allocating a Ranging CHannel (RCH) in a wirelesscommunication system.

Another aspect of the present invention is to provide a method andapparatus for, when an RCH is dynamically allocated, enabling a BaseStation (BS) and a Mobile Station (MS) to identify the RCH using thesame index in a wireless communication system.

Another aspect of the present invention is to provide a method andapparatus for, when an RCH is allocated dynamically to an MS, enablingthe MS to determine whether it uses the right RCH by checkinginformation about the position of the allocated RCH in a wirelesscommunication system.

A further aspect of the present invention is to provide a format for amessage used by a BS during allocation of an RCH in a wirelesscommunication system.

In accordance with an aspect of the present invention, a method forsupporting a handover at a source BS in a wireless communication systemis provided. The method includes transmitting a HandOver CoMmanD(HO-CMD) message to an MS. The HO-CMD message includes an RCH index ofan RCH allocated to the MS by a target BS and a subframe index of theallocated RCH, and the RCH index of the allocated RCH does not overlapwith indexes of other RCHs of the target BS.

In accordance with another aspect of the present invention, a method forsupporting a handover at a target BS in a wireless communication systemis provided. The method includes transmitting a HandOver Response(HO-RSP) message to a source BS. The HO-RSP message includes an RCHindex of an RCH allocated to an MS by the target BS and a subframe indexof the allocated RCH, and the RCH index of the allocated RCH does notoverlap with indexes of other RCHs of the target BS.

In accordance with another aspect of the present invention, a method forperforming a handover at an MS in a wireless communication system isprovided. The method includes receiving an HO-CMD message from a servingBS. The HO-CMD message includes an RCH index of an RCH allocated to theMS by a target BS and a subframe index of the allocated RCH, and the RCHindex of the allocated RCH does not overlap with indexes of other RCHsof the target BS.

In accordance with another aspect of the present invention, a source BSin a wireless communication system is provided. The system includes atransmission unit for transmitting an HO-CMD message to an MS. TheHO-CMD message includes an RCH index of an RCH allocated to the MS by atarget BS and a subframe index of the allocated RCH, and the RCH indexof the allocated RCH does not overlap with indexes of other RCHs of thetarget BS.

In accordance with another aspect of the present invention, a target BSin a wireless communication system is provided. The system includes atransmission unit for transmitting an HO-RSP message to a source BS. TheHO-RSP message includes an RCH index of an RCH allocated to an MS by thetarget BS and a subframe index of the allocated RCH, and the RCH indexof the allocated RCH does not overlap with indexes of other RCHs of thetarget BS.

In accordance with another aspect of the present invention, an MS in awireless communication system is provided. The system includes areception unit for receiving an HO-CMD message from a serving BS. TheHO-CMD message includes an RCH index of an RCH allocated to the MS by atarget BS and a subframe index of the allocated RCH, and the RCH indexof the allocated RCH does not overlap with indexes of other RCHs of thetarget BS.

Other aspects, advantages, and salient features of the invention willbecome apparent to those skilled in the art from the following detaileddescription, which, taken in conjunction with the annexed drawings,discloses exemplary embodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other aspects, features, and advantages of certainexemplary embodiments of the present invention will be more apparentfrom the following description taken in conjunction with theaccompanying drawings, in which:

FIGS. 1A and 1B illustrate exemplary frame structures to which RangingCHannels (RCHs) are allocated, in case of handover in a wirelesscommunication system according to the related art;

FIGS. 2A and 2B illustrate exemplary frame structures to which dynamicRCHs are allocated in a wireless communication system according to anexemplary embodiment of the present invention;

FIG. 3 is a diagram illustrating a signal flow when a Mobile Station(MS) attempts to enter a Base Station (BS) in a wireless communicationsystem according to an exemplary embodiment of the present invention;

FIG. 4 is a flowchart illustrating an RCH allocation method of a BS in awireless communication system according to an exemplary embodiment ofthe present invention;

FIG. 5 is a flowchart illustrating an RCH allocation method of a BS in awireless communication system according to an exemplary embodiment ofthe present invention;

FIG. 6 is a flowchart illustrating an RCH allocation method, when a BSreceives a ranging allocation message from another BS in a wirelesscommunication system according to an exemplary embodiment of the presentinvention; and

FIG. 7 is a diagram illustrating a signal flow between an MS and a BSduring a handover attempt according to an exemplary embodiment of thepresent invention.

Throughout the drawings, like reference numerals will be understood torefer to like parts, components, and structures.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

The following description with reference to the accompany drawings isprovided to assist in a comprehensive understanding of exemplaryembodiments of the invention as defined by the claims and theirequivalents. It includes various specific details to assist in thatunderstanding, but these are to be regarded as merely exemplary.Accordingly, those of ordinary skill in the art will recognize thatvarious changes and modifications of the embodiments described hereincan be made without departing from the scope and spirit of theinvention. In addition, descriptions of well-known functions andconstructions may be omitted for clarity and conciseness.

The terms and words used in the following description and claims are notlimited to the bibliographical meanings, but are merely used by theinventor to enable a clear and consistent understanding of theinvention. Accordingly, it should be apparent to those skilled in theart that the following description of exemplary embodiments of thepresent invention is provided for illustration purposes only and not forthe purpose of limiting the invention as defined by the appended claimsand their equivalents.

It is to be understood that the singular forms “a,” “an,” and “the”include plural referents unless the context clearly dictates otherwise.Thus, for example, reference to “a component surface” includes referenceto one or more of such surfaces.

While the following description is given in the context of an Instituteof Electrical and Electronics Engineers (IEEE) 802.16m system, it is tobe clearly understood that exemplary embodiments of the presentinvention are applicable to any wireless communication system requiringRanging CHannel (RCH) allocation.

FIGS. 2A and 2B illustrate exemplary frame structures to which dynamicRCHs are allocated in a wireless communication system according to anexemplary embodiment of the present invention. FIG. 2A illustrates aframe structure for Base Station (BS) A. FIG. 2B illustrate a framestructure for BS B that is serving an MS attempting handover to BS A.Reference numerals 201 and 205 denote downlink frames of BS A and BS B,respectively and reference numerals 203 and 207 denote uplink frames ofBS A and BS B, respectively.

Referring to FIGS. 2A and 2B, a frame is a resource allocation unit usedby a BS. Frames are distinguished by frequency and time, each frameoccupying part of resources available to the BS, as illustrated in FIGS.2A and 2B.

BS A allocates an RCH 221 to the uplink frame 203 using a broadcastchannel, SuperFrame Header (SFH) 209, for periodic RCH allocation. WhenBS A expects more MSs to enter BS A, BS A may allocate RCHs 223 and 225dynamically using MAPs 211 and 213. Because the RCHs 221, 223, and 225are allocated by the SFH 209 and the MAPs 211 and 213 in a broadcastmanner, any MS within the service area of BS A can acquire allocationinformation about the RCHs 221, 223, and 225 and access the RCHs 221,223, and 225 as well.

BS A may also allocate RCHs 227, 229, and 231 to specific MSs in aunicast manner. Unicast RCH allocation refers to transmission ofinformation about an allocated RCH by a unicast message. When BS Aallocates the RCH 229 to an MS operating within the service area of BS Aand when BS A allocates the RCHs 227 and 231 to MSs entering BS Athrough BS B due to factors such as handover, unicast RCH allocation maybe performed. For example, when it is necessary to allocate a dedicatedRCH to a specific MS within BS A for periodic ranging, measurement of aneighbor BS, etc., the dedicated RCH may be allocated in the unicastmanner.

When BS A allocates an RCH to the uplink frame 203 in the unicastmanner, BS A assigns an RCH index to the RCH, for identification. TheRCH index assigned to the RCH does not overlap with the indexes ofexisting RCHs in the uplink frame 203. Therefore, BS A and MSs within BSA can identify the unicast-allocated RCH using the same index.

For example, BS A may assign an index equal to or larger than the totalnumber N of broadcast-allocated RCHs (N is 0 or a larger integer) to aunicast-allocated RCH. Given three broadcast-allocated RCHs 221, 223,and 225, they are sequentially indexed 0, 1, and 2. To avoid indexoverlapping, BS A always assigns index 3 or a larger index to an RCHallocated in the unicast manner. Accordingly, when BS A allocates theRCHs 227, 229 and 231, the BS A may directly assign indexes 3, 4, and 5indicated by reference numerals 217, 219, and 215 to the RCHs 227, 229,and 231, respectively.

BS A may calculate the largest M of the indexes of the existing RCHs inthe uplink frame 203 (M is 0 or a larger integer) and may directlyassign index (M+1) or a larger index to each unicast-allocated RCH. Thethree RCHs 221, 223, and 225 are broadcast-allocated RCHs and havesequential indexes 0, 1, and 2. To avoid index overlapping, when BS Aallocates an RCH in the unicast manner, BS A assigns index 3 or a largerindex to the RCH by adding 1 to the largest of the existing RCH indexes,2. Accordingly, when allocating the RCHs 227, 229, and 231, BS A maydirectly assign indexes 3, 4, and 5 to the RCHs 227, 229, and 231,respectively. The largest of the existing RCH indexes may be calculatedby adding the number of the existing RCHs to (the starting RCH index-1).

FIG. 3 is a diagram illustrating a signal flow when an MS attempts toenter a BS in a wireless communication system according to an exemplaryembodiment of the present invention.

Referring to FIG. 3, an MS 301 acquires synchronization to a BS 303 byreceiving a synchronization signal (i.e., a preamble channel) from theBS 303 in step 305.

In step 307, the BS 303 allocates an RCH to the MS 301 and the MS 301receives from the BS 303 a message including information about at leastone ranging code available to the MS for network entry, informationabout the position of the allocated RCH (i.e., the frame number and/orsubframe number of the RCH), and the index of the RCH. The message maybe broadcast to the MS 301 on a broadcast channel, or unicast to the MS301.

The MS 301 receives the ranging code information, selects an availableranging code, and transmits the selected ranging code information in anRCH at a position indicated by the RCH position information to the BS303 in step 309.

The BS 303 notifies the MS 301 whether the network entry of the MS 301has been accepted by transmitting a RaNGing ReSPonse (RNG-RSP) (or aRanging ACKnowledgment (RNG-ACK)) message in step 311. The BS 303 mayallocate a plurality of RCHs to new MSs that are entering the network.When transmitting an RNG-RSP (or RNG-ACK) message to an MS, the BS 303includes information about an RCH in which it has received a rangingcode from the MS (i.e., information indicating the frame number and/orsubframe number of the RCH and the index of the RCH in a frame) andinformation about the received ranging code in the RNG-RSP (or RNG-ACK)message.

As described above, if BS A transmits to an MS information about theposition of an RCH allocated to the MS (i.e., the frame number, subframenumber and index of the RCH) along with information about availableranging codes, the MS transmits a ranging code in the RCH and receivesan RNG-RSP (or RNG-ACK) message from BS A. Since the RNG-RSP (orRNG-ACK) message indicates the RCH used by the MS (i.e., the index ofthe RCH used by the MS), the MS's malfunction can be prevented.

Now a description will be given of an example in which the RCHs 227 and231 are allocated in the unicast manner by a HandOver CoMmanD (HO-CMD)message.

The RCH 227 or 231 is allocated in the unicast manner to an MS that isoperating (being serviced) in another BS, BS A and attempting handoverto the current BS, BS A (thus, a target BS). When the MS transmits aHandOver REQuest (HO-REQ) message to BS B due to weak signal strength ofBS B, BS B notifies BS A that the MS will perform handover to BS A. Thenotification may be made by a message, for example, an HO-REQ message.If BS A accepts the handover of the MS, BS A allocates an RCH to the MS,assigns its index which does not overlap with the indexes of existingRCHs, and notifies BS B of the allocated RCH and the RCH index, alongwith an ACK message accepting the handover. BS B transmits informationabout the position of the RCH and the index of the RCH received from BSA to the MS in an HO-CMD message. Upon receipt of the HO-CMD message,the MS transmits a ranging code on the allocated RCH using the RCH indexindicated by the HO-CMD message during network entry to BS A. Afterreceiving an RNG-RSP (or RNG-ACK) message from BS A, the MS compares theRCH index indicated by the HO-CDM message with an RCH index indicated bythe RNG-RSP (or RNG-ACK) message and thus determines whether the rangingcode has been successfully transmitted to BS A according to thecomparison.

Table 1 illustrates a format for an RNG-RSP (or RNG-ACK) message and anHO-CMD message according to an exemplary embodiment of the presentinvention.

TABLE 1 Mandatory (M)/ Attribute/Attribute Size Optional(O) arrangement(bits) Value/Description Condition . . . O Frame index 4 Indicates theframe index Shall be of the allocated ranging included when aopportunity dynamic RCH is allocated O Subframe index 2 Indicates thesubframe Shall be index of the allocated included when rangingopportunity the dynamic RCH is allocated O Ranging 3 Indicates the indexof the Shall be Opportunity ranging opportunity of included when Indexthe dynamic RCH. The Action Time ranging opportunity index refers to theshall not overlap with frame to which existing ranging the dynamicopportunity indexes by RCH is the ABS. allocated. . . . . . . . . . . .. . . .

The attributes of Table 1 should be added to a message (e.g., an RNK-ACKmessage) that a BS unicasts to an MS operating within the BS or amessage (e.g., an HO-CMD message) that another BS transmits to an MSwithin another BS.

Frame index and Subframe index specify the position of the allocated RCHand Ranging Opportunity Index indicates the index of the RCH.

FIG. 4 is a flowchart illustrating an RCH allocation method of a BS in awireless communication system according to an exemplary embodiment ofthe present invention.

Referring to FIG. 4, when the BS intends to allocate a specific RCH to aspecific MS, for example, where the specific MS is to range in anon-contention-based manner or requests handover to another BS, the BSallocates the RCH to the MS in a unicast manner in step 401.

In step 403, the BS assigns an index to the allocated RCH so that theRCH index does not overlap with the indexes of existing RCHs in anuplink frame of the BS.

Then the BS transmits a message for RCH allocation, including the RCHindex, to the specific MS or the other BS that is serving thehandover-requesting MS in step 405.

The message may be a ranging allocation message. The message may furtherinclude information about ranging codes available to the MS and theframe and subframe indexes of the allocated RCH. The ranging allocationmessage may be, for example, a HandOver ReSPonse (HO-RSP) message.

FIG. 5 is a flowchart illustrating an RCH allocation method of a BS in awireless communication system according to another exemplary embodimentof the present invention.

Referring to FIG. 5, when the BS intends to allocate a specific RCH to aspecific MS, for example, when the specific MS is to range in anon-contention-based manner or requests handover to another BS, the BSallocates the RCH to the MS in a unicast manner in step 401. The BS isaware of the handover request of the MS within the service area of theother BS by receiving an HO-REQ message from the other BS. In step 403,the BS assigns an index to the allocated RCH so that the RCH index doesnot overlap with the indexes of existing RCHs in an uplink frame of theBS.

The BS determines whether the MS is operating in the other BS, that is,whether the MS has requested a handover in the other BS in step 501. Ifthe MS is operating in the other BS, the BS transmits a messageincluding the RCH index to the other BS in step 503 so that the other BSmay transmit a message (such as an HO-CMD message) including the RCHindex to the MS. On the other hand, if the MS is operating within theservice area of the BS, the BS transmits a message (such as a rangingallocation message) including the RCH index to the MS in step 505.

The message with the RCH index may further include information aboutranging codes available to the MS and the frame and subframe indexes ofthe allocated RCH.

FIG. 6 is a flowchart illustrating an RCH allocation method, when a BSreceives a ranging allocation message from another BS in a wirelesscommunication system according to an exemplary embodiment of the presentinvention.

As described before with reference to FIG. 5, a BS may transmit aranging allocation message to another BS that is serving ahandover-requesting MS. The operation of FIG. 6 is performed in the casewhere a BS receives such a ranging allocation message.

Referring to FIG. 6, when a BS receives a message including an RCH indexfrom another BS in step 601, the BS transmits a message including theRCH index to an MS to which an RCH corresponding to the RCH index hasbeen allocated in step 603. The message including the RCH index may bean HO-CMD message.

Selectively, the message with the RCH index may further includeinformation about ranging codes available to the MS and the frame andsubframe indexes of the allocated RCH.

As illustrated in FIGS. 4, 5, and 6, an MS's malfunction of using anincorrect RCH can be prevented, as the MS receives a message includingthe index of an RCH allocated in a unicast manner.

FIG. 7 is a diagram illustrating a signal flow between an MS and a BSduring a handover attempt according to an exemplary embodiment of thepresent invention.

Referring to FIG. 7, when an MS 705 attempts a handover from a source BS703 to a target BS 701, the source BS 703 notifies the target BS 701 ofthe handover of the MS 705. The target BS 701 then allocates an RCH tothe MS 705 in a unicast manner, assigns an index to the RCH so that theRCH index does not overlap with the indexes of existing RCHs within thetarget BS 701, and transmits a ranging allocation message including theRCH index to the source BS 703 in step 707. Upon receipt of the rangingallocation message, the source BS 703 transmits an HOP-CMD messageincluding the RCH index to the MS 705 in step 709. The MS 705 transmitsa ranging code on the RCH corresponding to the RCH index to the targetBS 701 in step 711. Upon receipt of the ranging code, the target BS 701transmits an RNG-RSP (or RNG-ACK) message to the MS 705 in response tothe ranging code in step 713.

In accordance with an exemplary embodiment of the present invention, theBS may include an RCH allocation unit for managing RCH allocations and awireless signal processor for processing wireless transmission andreception signals. The operations of FIGS. 4, 5, and 6 may beimplemented in the RCH allocation unit of the BS. The RCH allocationunit may include a controller and a signal Input/Output (I/O) unit. Thecontroller provides overall control to the RCH allocation methods ofFIGS. 4, 5, and 6, and the signal I/O unit receives and outputs aplurality of messages and data from and to the controller using thewireless signal processor.

In accordance with an exemplary embodiment of the present invention, theMS may include a controller for controlling reception of a rangingallocation message or an HO-CMD message from a BS and controllingtransmission of a ranging code to a BS, and a signal I/O unit fortransmitting and receiving messages or signals to and from a BS underthe control of the controller. The operations of the MS illustrated inFIGS. 3 to 7 may be implemented in the controller and the signal I/Ounit of the MS.

The RCH allocation frame structure of FIG. 2, the message flowsillustrated in FIGS. 3 and 7, and the flowcharts illustrated in FIGS. 4,5, and 6, should not be construed as limiting the scope and spirit ofthe present invention. The resource allocation methods of FIGS. 3 to 7are merely examples of operations of the RCH allocation unit (not shown)and the MS (not shown). These methods may not involve all steps or maynot be performed individually by a particular device. They may beimplemented by a single device or component.

The afore-described operations can be performed by providing a memorythat stores program code in a component of a controller or an MS. Eachcomponent of the controller or the MS can perform the operations byreading the program code from the memory by means of a processor or aCentral Processing Unit (CPU) and executing the program code.

As is apparent from the above description of the present invention,because a BS assigns an index to a dynamically allocated RCH in such amanner that the RCH index does not overlap with the indexes of existingRCHs, a malfunction that might otherwise occur due to an RCH indexcollision between the BS and an MS can be prevented.

In addition, upon receipt of a ranging code from the MS, the BS notifiesthe MS of an RCH in which it has received the ranging code. Accordingly,the MS can determine the position of an RCH allocated to the MS. As aconsequence, a ranging procedure can be completed without a wrong RCHuse-caused malfunction.

While the present invention has been shown and described with referenceto certain exemplary embodiments thereof, it will be understood by thoseskilled in the art that various changes in form and details may be madetherein without departing from the spirit and scope of the presentinvention as defined by the appended claims and their equivalents.

What is claimed is:
 1. An operating method of a serving Base Station(BS) in a communication system, the operating method comprising:transmitting a first message to a Mobile Station (MS), wherein the firstmessage includes information related to a random access resource that isallocated to the MS by a target BS, and wherein the random accessresource is distinguishable from other random access resources of thetarget BS.
 2. The operating method of claim 1, wherein the first messageincludes a HandOver CoMmanD (HO-CMD) message.
 3. The operating method ofclaim 1, wherein the information related to the random access resourceincludes information related to a Ranging CHannel (RCH) index of an RCHallocated to the MS by the target BS.
 4. The operating method of claim1, further comprising receiving a second message from the target BS, thesecond message including the information related to the random accessresource which is allocated to the MS.
 5. The operating method of claim4, wherein the first message transmitted to the MS includes a HandOverCoMmanD (HO-CMD) message, and the second message received from thetarget BS includes a HandOver ReSPonse (HO-RSP) message.
 6. Theoperating method of claim 4, wherein the information related to therandom access resource includes information related to a Ranging CHannel(RCH) index of an RCH allocated to the MS by the target BS.
 7. Anoperating method of a target Base Station (BS) in a communicationsystem, the operating method comprising: transmitting a first message toa serving BS, wherein the first message includes information related toa random access resource allocated to a Mobile Station (MS) by thetarget BS, and wherein the random access resource is distinguishablefrom other random access resources of the target BS.
 8. The operatingmethod of claim 7, wherein the first message includes a HandOverReSPonse (HO-RSP) message.
 9. The operating method of claim 7, whereinthe information related to the random access resource includesinformation related to a Ranging CHannel (RCH) index of an RCH allocatedto the MS by the target BS.
 10. The operating method of claim 7, furthercomprising: allocating the random access resource to the MS, in responseto receiving a second message from the serving BS, the second messageindicating a handover of the MS to the target BS from the serving BS.11. The operating method of claim 10, wherein the first messagetransmitted to the serving BS includes a HandOver ReSPonse (HO-RSP)message, and the second message received from the serving BS includes aHandOver REQuest (HO-REQ) message.
 12. The operating method of claim 10,wherein the information related to the random access resource includesinformation related to a Ranging CHannel (RCH) index of an RCH allocatedto the MS by the target BS.
 13. An operating method of Mobile Station(MS) in a communication system, the operating method comprising:receiving a first message from a serving Base Station (BS), wherein thefirst message includes information related to a random access resourcewhich is allocated to the MS by a target BS, and wherein the randomaccess resource is distinguishable from other random access resources ofthe target BS.
 14. The operating method of claim 13, wherein the firstmessage includes a HandOver CoMmanD (HO-CMD) message.
 15. The operatingmethod of claim 13, wherein the information related to the random accessresource includes information related to a Ranging CHannel (RCH) indexof an RCH allocated to the MS by the target BS.
 16. The method of claim13, further comprising: transmitting a second message to the serving BSindicating a handover of the MS to the target BS.
 17. The operatingmethod of claim 16, wherein the first message includes a HandOverCoMmanD (HO-CMD) message, and the second message transmitted includes aHandOver REQuest (HO-REQ) message.
 18. The operating method of claim 16,wherein the information related to the random access resource includesinformation related to a Ranging CHannel (RCH) index of an RCH allocatedto the MS by the target BS.
 19. A serving Base Station (BS) in acommunication system, the serving BS comprising: a transmitterconfigured to transmit a first message to a Mobile Station (MS), whereinthe first message includes information related to a random accessresource which is allocated to the MS by a target BS, and wherein therandom access resource is distinguishable from other random accessresources of the target BS.
 20. The serving BS of claim 19, wherein thefirst message includes a HandOver CoMmanD (HO-CMD) message.
 21. Theserving BS of claim 19, wherein the information related to the randomaccess resource includes information related to a Ranging CHannel (RCH)index of an RCH allocated to the MS by the target BS.
 22. The serving BSof claim 19, further comprising: a receiver configured to receive asecond message from the BS, the second message including the informationrelated to the random access resource which is allocated to the MS. 23.The serving BS of claim 22, wherein the first message transmitted to theMS includes a HandOver CoMmanD (HO-CMD) message, and the second messagereceived from the target BS includes a HandOver ReSPonse (HO-RSP)message.
 24. The serving BS of claim 22, wherein the information relatedto the random access resource includes information related to a RangingCHannel (RCH) index of an RCH allocated to the MS by the target BS. 25.A target Base Station (BS) in a communication system, the target BScomprising: a transmitter configured to transmit a first message to aserving BS, wherein the first message includes information related to arandom access resource allocated to a Mobile Station (MS) by the targetBS, and wherein the random access resource is distinguishable from otherrandom access resources of the target BS.
 26. The target BS of claim 25,wherein the first message includes a HandOver ReSPonse (HO-RSP) message.27. The target BS of claim 25, wherein the information related to therandom access resource includes information related to a Ranging CHannel(RCH) index of an RCH allocated to the MS by the target BS.
 28. Thetarget BS of claim 25, further comprising: a controller configured toallocate the random access resource to the MS if a receiver receives asecond message from the serving BS, the second message indicating ahandover of the MS to the target BS.
 29. The target BS of claim 28,wherein the first message transmitted to the serving BS includes aHandOver ReSPonse (HO-RSP) message, and the second message received fromthe serving BS includes a HandOver REQuest (HO-REQ) message.
 30. Thetarget BS of claim 28, wherein the information related to the randomaccess resource includes information related to a Ranging CHannel (RCH)index of an RCH allocated to the MS by the target BS.
 31. A MobileStation (MS) in a communication system, the MS comprising: a receiverconfigured to receive a first message from a serving Base Station (BS),wherein the first message includes information related to a randomaccess resource which is allocated to the MS by a target BS, and whereinthe random access resource is distinguishable from other random accessresources of the target BS.
 32. The MS of claim 31, wherein the firstmessage includes a HandOver CoMmanD (HO-CMD) message.
 33. The MS ofclaim 31, wherein the information related to the random access resourceincludes information related to a Ranging CHannel (RCH) index of an RCHallocated to the MS by the target BS.
 34. The MS of claim 31, furthercomprising: a transmitter configured to transmit a second message to theserving BS, the second message indicating a handover of the MS to thetarget BS to the serving BS.
 35. The MS of claim 34, wherein the firstmessage received from the serving BS includes a HandOver CoMmanD(HO-CMD) message, and the second message transmitted to the serving BSincludes a HandOver REQuest (HO-REQ) message.
 36. The MS of claim 34,wherein the information related to the random access resource includesinformation related to a Ranging CHannel (RCH) index of an RCH allocatedto the MS by the target BS.